张崇伟
近期热点
资料介绍
个人简历
教育经历2012.7-2016.10 英国伦敦大学学院 | 机械工程 | 博士 2009.9-2012.3 哈尔滨工程大学 | 流体力学 | 硕士 2005.9-2009.6 哈尔滨工程大学 | 船舶与海洋工程 | 学士 工作经历2016.11-至今大连理工大学水利工程学院 - 讲师 专利/软件著作权 [1] 集成于浮式防波堤的液舱浮子式波能发电装置 2019-10-09[2] 抛物线型波能利用式防波堤 2019-10-09[3] 一种消能室内设计开孔斜挡板的开孔沉箱透空式防波堤 2019-10-09[4] 一种开孔沉箱和射流挡浪墙组合的透空式防波堤 2019-10-09[5] 抛物线型波能利用式防波堤 2019-07-17[6] 集成于浮式防波堤的摆式波浪能发电装置 2019-06-11[7] 振荡水柱与振荡浮子组合式波能转换装置 2019-06-11[8] 振荡水柱与振荡浮子组合式波能转换装置 2019-03-09[9] 集成于浮式防波堤的摆式波浪能发电装置 2019-03-09[10] “蘑菇型”振荡水柱式波能转换装置 2019-03-09[11] 浪向自适应浮力摆式波能发电装置 2019-03-09[12] “蘑菇型”振荡水柱式波能转换装置 [13] 浪向自适应浮力摆式波能发电装置 2019-03-09[14] 浮式液化天然气平台非线性时域运动模拟软件 2018-05-16[15] 深水潜器附加质量系数计算软件V1.0 科研项目 [1] 卷破波浪对圆柱作用力比尺效应的实验研究, 国家自然科学基金, 2019-08-16, 进行 2019-10-09[2] 深水系泊系统主动式等效截断模型试验方法研究, 国家自然科学基金, 2019-08-16, 进行 2019-09-20[3] 波浪能多自由度装置物理模型水池试验, 国家重点研发计划, 2019-04-01, 进行 2019-07-18[4] 新型波能利用式防波堤的聚能机理研究, 中国博士后科学基金, 2019-06-14, 进行 2019-07-12[5] 中英极端环境下海岸和离岸可再生能源系统水动力学研讨会, 国家自然科学基金, 2019-03-29, 进行 2019-05-09[6] 海洋牧场新型波能利用式防波堤的水动力特性研究, 中国博士后科学基金, 2018-05-09, 进行 2018-07-20[7] 波浪作用下“液舱-多浮体系统”的多重共振机理研究, 国家自然科学基金, 2017-08-17, 进行 2017-10-13[8] 中科深海“智能渔场—1号”深水养殖网箱模型试验, 2018-01-14-2019-01-13, 完成 2019-03-21[9] 桩基环保型防波堤的基础理论与设计方法, 国家自然科学基金, 2017-08-17, 进行 2019-03-21[10] 消波设计分析验证报告, 2017-11-01-2017-11-15, 完成 2019-03-21[11] 深海资源开发的核心技术, 国家重点研发计划, 2017-09-01, 进行 2019-03-21[12] Investigation of integration of wave energy converter arrays into floating breakwater, 一般纵向, 2017-04-01, 完成 [13] ‘华屿一号’平台水动力荷载数值分析, 2017-01-14-2017-03-31, 完成 2019-03-21[14] 新型泡沫层减晃荡技术的水动力特性研究, 2019-03-25-2019-03-25, 在研, 负责 2018-05-25[15] 海洋牧场新型波能利用式防波堤的水动力特性研究, 中国博士后科学基金(一等资助), 2019-03-25-2019-03-25, 在研, 负责 2018-05-25[16] 波浪作用下\研究领域
[1]波浪能装置与浮式防波堤集成系统的水动力学问题[2]液舱晃荡与浮式结构物相互作用的水动力学问题[3]计算流体力学技术""近期论文
[1] 谭婕,张崇伟,宁德志.基于连续小波变换的液体非线性晃荡分析[A],2019,5 2019-12-10[2] Qiang Chen,张崇伟,Jun Zang,宁德志.A coupled Particle-In-Cell (PIC)-Discrete Element Method (DEM) solver for fluid–solid mixture flow simulations[J],Journal of Fluids and Structures,2019,91:102772- 2019-12-10[3] 孙小童,张崇伟,宁德志.基于 harmonic polynomial cell(HPC)方法的聚焦波非线性模拟[A],2019 2019-12-10[4] 宁德志,周宇,张崇伟,滕斌.Analytical Study on a concentric Cylindrical OWC Wave Energy Converter[A],2018 2019-12-10[5] 宋炳月,张崇伟.Study on water column impact without/with air cavity[A],2019 2019-12-10[6] 张崇伟,宁德志,滕斌.Hydrodynamic study of energy harvesting breakwater with parabolic openings[A],2019 2019-12-10[7] Teng, Bin,Mao, Hong-fei,Ning, De-zhi,Zhang, Chong-wei.Viscous numerical examination of hydrodynamic forces on a submerged horizontal circular cylinder undergoing forced oscillation[J],JOURNAL OF HYDRODYNAMICS,2019,31(5):887-899 2019-11-07[8] Zhang, Chongwei,Ning, Dezhi.Hydrodynamic study of a novel breakwater with parabolic openings for wave energy harvest[J],OCEAN ENGINEERING,2019,182:540-551 2019-10-09[9] Song, Bingyue,Zhang, Chongwei.Water column impact on a rigid wall with air cavity effects[J],PHYSICS OF FLUIDS,2019,31(4) 2019-10-09[10] Ning De-zhi,Su Peng,Zhang Chong-wei.Experimental Study on A Sloshing Mitigation Concept Using Floating Layers of Solid Foam Elements[J],CHINA OCEAN ENGINEERING,2019,33(1):34-43 2019-10-09[11] Zhang, Chongwei,Su, Peng,Ning, Dezhi.Effects of internal cylinders on natural sloshing frequencies of a 3D rectangular tank[A],2018,2018-June:880-887 2019-10-09[12] Zhang, Chongwei,Su, Peng,Ning, Dezhi,Wang, Zhen.Experimental study of anti-sloshing foam layers for FLNG tanks[A],2018,230-234 [13] Ning, Dezhi,Zhang, Chongwei,Teng, Bin.Numerical investigation of wave-current loads on a submerged plate by HOBEM[A],2018,179-184 2019-07-06[14] Hydrodynamic study of an anti-sloshing technique using floating foams,Ocean Engineering,2019 2019-02-15[15] Experimental Study on A Sloshing Mitigation Concept Using Floating Layers of Solid Foam Elements,China Ocean Engineering,2019 2019-02-15[16] 张崇伟,苏朋,宁德志.Hydrodynamic study of an anti-sloshing technique using floating foams[J],Ocean Engineering,2019,175:62-70 2019-03-13[17] Nonlinear Simulation of Wave Train Impact on a Vertical Seawall,Water,2018 2018-12-27[18] Effects of internal cylinders on natural sloshing frequencies of a 3D rectangular tank,ISOPE,2018 2018-12-26[19] Hydrodynamic modeling of a novel dual-chamber OWC wave energy converter,Applied Ocean Research,2018 2018-12-26[20] Secondary resonance of liquid sloshing in square-base tanks undergoing the circular orbit motion,European Journal of Mechanics - B/Fluids,2018 2018-12-26[21] Zhang, Chongwei,Ning, Dezhi,Teng, Bin.Secondary resonance of liquid sloshing in square-base tanks undergoing the circular orbit motion[J],EUROPEAN JOURNAL OF MECHANICS B-FLUIDS,2018,72:235-250 2019-03-12[22] 宁德志,邱诗惠,张崇伟.毗邻双箱体间水体共振的非线性特性[J],哈尔滨工程大学学报,2018,40(2):234-239 2019-03-12[23] Experimental study of anti-sloshing foam layers for FLNG tanks,PACOM,2018 2019-02-15[24] Ning, Dezhi,Zhou, Yu,Zhang, Chongwei.Hydrodynamic modeling of a novel dual-chamber OWC wave energy converter[J],APPLIED OCEAN RESEARCH,2018,78:180-191 2019-03-12[25] Ning Dezhi,Du Jun,Bai Wei,Zhang Chongwei,Teng Bin.Numerical modelling of nonlinear extreme waves in presence of wind[J],ACTA OCEANOLOGICA SINICA,2018,37(9):90-98 2019-03-12[26] Experimental and numerical study on wave response at the gap between two barges of different draughts,Applied Ocean Research,2018 2018-05-25[27] Ning, Dezhi,Zhu, Yi,Zhang, Chongwei,Zhao, Ming.Experimental and numerical study on wave response at the gap between two barges of different draughts[J],APPLIED OCEAN RESEARCH,2018,77:14-25 2019-03-12[28] Ning, Dezhi,Li, Xiang,Zhang, Chongwei.Nonlinear Simulation of Wave Train Impact on a Vertical Seawall[J],WATER,2018,10(8) 2019-03-12[29] 宁德志,苏朋,张崇伟,李翔.三维液舱内浮子式减晃荡结构的水动力特性[J],哈尔滨工程大学学报,2018,40(1):154-161 2019-03-12[30] Hydrodynamic Investigation of a Concentric Cylindrical OWC Wave Energy Converter,Energies,2018 2018-05-25[31] Song, Bingyue,Zhang, Chongwei.Boundary element study of wave impact on a vertical wall with air entrapment[J],ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS,2018,90:26-38 2019-03-11[32] Meng, Qicheng,Zhang, Chongwei.Analytical study on a submerged tubular wave energy converter[J],RENEWABLE ENERGY,2018,118:955-964 2019-03-11[33] Zhou, Yu,Zhang, Chongwei,Ning, Dezhi.Hydrodynamic Investigation of a Concentric Cylindrical OWC Wave Energy Converter[J],ENERGIES,2018,11(4) 2019-03-12[34] Boundary element study of wave impact on a vertical wall with air entrapment[J],Engineering Analysis with Boundary Elements,2018 2018-02-27[35] Wang, Rong-quan,Ning, De-zhi,Zhang, Chong-wei,Zou, Qing-ping,Liu, Zhen.Nonlinear and viscous effects on the hydrodynamic performance of a fixed OWC wave energy converter[J],COASTAL ENGINEERING,2018,131:42-50 2019-03-11[36] 张崇伟,苏朋,宁德志.Effects of internal cylinders on natural sloshing frequencies of a 3D rectangular tank[A],the 28th International Ocean and Polar Engineering Conference,2018,880-887 [37] 宁德志,张崇伟,滕斌.Numerical investigation of wave-current loads on a submerged plate by HOBEM[A],13th ISOPE Pacific/Asia Offshore Mechanics Symposium, PACOMS 2018,2018,179-184 2019-03-13[38] 滕斌,毛鸿飞,宁德志,张崇伟.Viscous numerical examination of hydrodynamic forces on a submerged horizontal circular cylinder undergoing forced oscillation[J],Journal of Hydrodynamics,2018,1-13 2019-03-13[39] 张崇伟,宋炳月.Numerical simulation of wave impact with air cavity effects[A],33rd International Workshop on Water Waves and Floating Bodies,2018,197-200 2019-03-13[40] 张崇伟,苏朋,宁德志,滕斌.Hydrodynamics of Sloshing Mitigation Using Floating Plastic Foams[A],日本船舶海洋工学会演讲会论文集,2018,15-17 2019-03-13[41] 苏朋,宁德志,张崇伟.泡沫式减晃荡技术的水动力实验研究[A],第十全国流体力学学术会议,2018 2019-03-13[42] 宁德志,赵玄烈,张崇伟.EXPERIMENTAL INVESTIGATION ON HYDRODYNAMICS OF OSCILLATING BUOY TYPE WAVE ENERGY CONVERTERS INTEGRATED INTO A FIXED BREAKWATER[A],The 7th International Conference on the Application of Physical Modelling in Coastal and Port Engineering and Science (Coastlab18),2018 2019-03-13[43] 宁德志,李翔,张崇伟.Nonlinear Simulation of Focused Wave Group Action on a Truncated Surface-Piercing Structure[J],Journal of Marine Science and Application,2018,17(3):362-370 2019-03-13[44] 张崇伟,苏朋,宁德志,王振.Experimental study of anti-sloshing foam layers for FLNG tanks[A],13th ISOPE Pacific/Asia Offshore Mechanics Symposium, PACOMS 2018,2018,230-234 2019-03-13[45] Ning, Dezhi,Liu, Chengguo,Zhang, Chongwei,Goteman, Malin,Zhao, Haitao,Teng, Bin.HYDRODYNAMIC PERFORMANCE OF AN OSCILLATING WAVE SURGE CONVERTER IN REGULAR AND IRREGULAR WAVES: AN EXPERIMENTAL STUDY[J],JOURNAL OF MARINE SCIENCE AND TECHNOLOGY-TAIWAN,2017,25(5):520-530 2019-03-11[46] 周宇,宁德志,张崇伟,滕斌,赵海涛.“蘑菇型”振荡水柱式波能转换装置水动力性能的解析研究[A],第十八届中国海洋(岸)工程学术讨论会,2017,7 2019-03-11[47] 李翔,张崇伟,宁德志,苏朋.非周期波浪与直墙作用的非线性数值研究[J],力学学报,2017,49(5):1042-1049 2019-03-11[48] Ning, Dezhi,Wang, Rongquan,Zhang, Chongwei.Numerical Simulation of a Dual-Chamber Oscillating Water Column Wave Energy Converter[J],SUSTAINABILITY,2017,9(9) 2019-03-11[49] 朱祎,宁德志,张崇伟,滕斌.吃水对双箱体间窄缝内水体共振特性影响的模拟研究[A],第十四届全国水动力学学术会议暨第二十八届全国水动力学研讨会,2017,7 2019-03-11[50] Wang, Rongquan,Ning, Dezhi,Zhang, Chongwei.Numerical investigation of the hydrodynamic performance of the dual-chamber oscillating water columns[A],27th International Ocean and Polar Engineering Conference, ISOPE 2017,2017,66-70 2019-03-11[51] Zhao, Xuanlie,Ning, Dezhi,Zhang, Chongwei,Kang, Haigui.Hydrodynamic Investigation of an Oscillating Buoy Wave Energy Converter Integrated into a Pile-Restrained Floating Breakwater[J],ENERGIES,2017,10(5) 2019-03-12[52] 张崇伟,宁德志.New generation of offshore ports with self-sustaining energy[A],The 11th Meeting of the Port-city Universities League (PUL),2017,252-254 2019-03-12[53] 宁德志,张崇伟,滕斌.“蘑菇型”振荡水柱波能转换装置水动力性能的数值模拟[A],2017,326-332 2019-03-12[54] 宁德志,张崇伟,陈兵.Nonlinear influence on wave dynamics and hydrodynamic efficiency of an OWC device[A],2017 2019-03-12[55] Zhao, Xuanlie,Ning, Dezhi,Zhang, Chongwei,Liu, Yingyi,Kang, Haigui.Analytical Study on an Oscillating Buoy Wave Energy Converter Integrated into a Fixed Box-Type Breakwater[J],MATHEMATICAL PROBLEMS IN ENGINEERING,2017,2017 2019-03-12[56] Analysis of wave resonance in gap between two heaving barges[J],Ocean Engineering,2016 2016-12-01[57] Analytical study of transient coupling between vessel motion and liquid sloshing in multiple tanks[J],Journal of Engineering Mechanics,2016 2016-12-01[58] Analysis of liquid sloshing in LNG carrier with wedge-shaped tanks[J],Ocean Engineering,2015 2016-12-01[59] Fully nonlinear analysis of second-order sloshing resonance in a three-dimensional tank[J],Computers & Fluids,2015 2016-12-01[60] Application of an improved semi-Lagrangian procedure to fully-nonlinear simulation of sloshing in non-wall-sided tanks[J],Applied Ocean Research,2015 [61] Numerical study on a hybrid water wave radiation condition by 3D boundary element method[J],Wave Motion,2012 2016-12-01[62] Wenyang Duan,Chongwei Zhang.Study on reflection effects of the artificial transmitting condition in 3D numerical wave tanks[C],Proceedings of the 7th International Workshop on Ship Hydrodynamics,2011 2016-12-01[63] Chongwei Zhang.Study on second-order resonance of 3D fully-nonlinear sloshing[C],Proceedings of International Conference on Maritime Technology,2014 2016-12-01[64] Numerical Simulation of a Dual-Chamber Oscillating Water Column Wave Energy Converter,Sustainability,2017 2017-11-22[65] Chongwei Zhang, Chengguo Liu,Dezhi Ning.Hydrodynamic performance of an oscillating wave surge converter in regular and irregular waves: An experimental study,Journal of Marine Science and Technology,2017 2017-11-22[66] Analytical study on a submerged tubular wave energy converter,Renewable Energy,2018 2017-11-22[67] 李翔,苏朋,宁德志,张崇伟,李翔.非周期波浪与直墙作用的非线性数值研究[J],力学学报,2017 2017-11-22[68] Chongwei Zhang,Yajie Li,Qicheng Meng.Fully nonlinear numerical simulations of large-amplitude obliquely interacting solitary waves[C],Proceedings of the 9th IMACS International Conference on Nonlinear Evolution Equations and Wave Phenomena: Computation and Theory,2015 2016-12-01[69] Nonlinear simulation of resonant sloshing in wedged tanks using boundary element method[J],Engineering Analysis with Boundary Elements,2016 2016-12-01[70] Chongwei Zhang, Dezhi Ning,Xuanlie Zhao.Analytical Study on an Oscillating Buoy Wave Energy Converter,Mathematical Problems in Engineering,2017 2017-11-22[71] Chongwei Zhang, Dezhi Ning,Rongquan Wang.Nonlinear and viscous effects on the hydrodynamic performance of a fixed OWC,Coastal Engineering,2017 2017-11-22[72] Qicheng Meng,Chongwei Zhang.A third-order KdV solution for internal solitary waves and its application in the numerical wave tank[J],Journal of Ocean Engineering and Science,2016,1(2):93-108 [73] Chongwei Zhang.Numerical study on liquid sloshing dynamics in marine engineering[C],UCL Mechanical Engineering PhD Research Conference,2013 2016-12-01[74] Hydrodynamic Investigation of an Oscillating Buoy Wave Energy Converter Integrated into a Pile-Restrained Floating Breakwater,Energies,2017 2017-11-22[75] Numerical modelling of nonlinear extremewaves in the presence of wind,Acta Oceanologica Sinica,2018 相关热点
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